Improving Suspend Resume

One of the Jaunty UDS goals was to do what we can to improve detection, reporting, and diagnosis of suspend/resume failures. We have split this into two independant segments:

the detection and report of suspend/resume failures in normal operation, and

providing infrastructure to automate suspend/resume testing.

Detection and Reporting

We want to monitor the system for all suspend/resume and hibernate/resume cycles, detecting any failure to resume from those generating a report and where applicable a launchpad bug.

Detecting Failures

A suspend/resume or hibernate/resume can fail in one of three main ways:

the suspend/hibernate is unable to quiesce the system, and

the system never resumes from the suspend/hibernate.

the system resumes but has non-functional subsystems (display, wifi)

The first version of this tool will concentrate on the second of these. To detect these we will simply add an up/down script to /etc/pm/sleep.dwhich will create a flag file /var/lib/pm-utils/status which will contain either suspend or hibernate as the first word on the first line of the file to flag both the existence of the event and its type.

Additional information may be placed in this file as needed. When the

system returns from the suspend/hibernate this will be simply removed.

It is highly desirable that the up/down tool and perhaps the apport init

Now if we are booting normally and we detect this record file as present we know that the resume from suspend/hibernate has failed and we can generate a failure report.

Reporting Failures

Having detected a failure we want to generate an error report and if permitted file a bug in launchpad corresponding to it. For this we leverage the existing apport infrastructure. From the apport init script we call a new script /usr/share/apport/checkresume which will check for the failed resume marker and initiate the report.

The report contains at least:

the contents of the /var/lib/pm-utils/status file,

the contents of the stress test mode log file (see below),

the system dmesg output (see below), and

general system and hardware information.

The script which generates the report (if needed) will apply a set of tags that make it easy to differentiate these from other kernel bugs.

Once the user has logged in apport will notify them of the existance of the resume failure report and offer them the opportunity to report it to launchpad in the normal manner. No report will be made without the users consent.

Stress Testing

Regular testing of suspend/hibernate/resume functionality can only help capture regressions long before they hit the widest user base. To this end it is helpful for users to specifically stress test suspend/resume on their systems and report this back to us. For example some systems will only fail on the second resume, or are unreliable and fail one time in 10.

To make this testing consistent it makes sense to automate this process. To this end we are recommending regular testing using the script at the URL below:

http://people.ubuntu.com/~apw/suspend-resume/test-suspend

This script will perform a number of suspend resume cycles (20 by default) and report back on these. This script is run as below:

sudo ./test-suspend

This script requires the powermanagement-interface package to be installed before it will run.

Testing Strategy

The test script utilised the ACPI timer wakeup system to automatically resume us from a suspend. In each iteration we will schedule an ACPI wakeup 10s out in the future and then suspend the system using pms suspend. On successful resume we then sleep a further 10 seconds and then repeat the test.

When suspend/resume is working normally the system will eventually reach the end of the testing and the script will complete normally.

Detecting and Reporting failures

If suspend/resume fails the user should hard reset their system (power off and on, or reset) and the apport reporting system will detect and report this. The user will get the option to report this back to launchpad as normal.

To tidy up after the test the script should be re-run without any arguments. This allows the script to detect and correct the system clock should it have been modified.

TODO

agree the stress testing logfile name.

ensure the contents of the $record file should be used to influence the titles of the bug and the tags applied to it.